© 2014 Optical Society of America. We present a cluster coherent potential approach for disordered photonic crystals (PhCs) that is based on maximally localized Wannier functions. In particular, the Wannier basis facilitates an efficient representation of the photonic band structure of a defect-free PhC and the Green's function thereof, which we discuss first. Moreover, the Wannier basis allows for adapting elaborate approaches developed for the analysis of disorder in electronic and phononic systems to PhCs. Our detailed studies reveal that neither the virtual crystal approximation nor the single-site coherent potential approximation (CPA) provides a reliable description of the effects of disorder in PhCs. Rather, we demonstrate that a clu...
We studied the modes of the highest-quality factor Qm in disordered photonic crystals. by varying th...
This book introduces recent advances in the deterministic design of photonic structures, which overc...
This work is concerned with the study of photonic crystals and other topical photonic microstructure...
We present an investigation of disordered photonic crystals (PhCs) based on the combination of photo...
We present an approach for the efficient generation of Wannier functions for Photonic Crystal comput...
We introduce a novel approach to the accurate and efficient calculation of the optical properties of...
Influence of the various types of disorder on propagation of light in one-dimensional periodic struc...
We study the influence of positional disorder on the optical properties of metallic photonic crysta...
Propagation in perturbed one-dimensional phononic or photonic crystals, with both composit...
We present a systematic numerical approach to compute the eigenmodes and the related eigenfrequencie...
This work concentrates on numerical simulations of Photonic Crystal structures using basis-expansion...
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
The photon localization in disordered two-dimensional photonic crystal is studied theoretically. It ...
Photons propagate in photonic crystals in the same way as electrons propagate in solids. The periodi...
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
We studied the modes of the highest-quality factor Qm in disordered photonic crystals. by varying th...
This book introduces recent advances in the deterministic design of photonic structures, which overc...
This work is concerned with the study of photonic crystals and other topical photonic microstructure...
We present an investigation of disordered photonic crystals (PhCs) based on the combination of photo...
We present an approach for the efficient generation of Wannier functions for Photonic Crystal comput...
We introduce a novel approach to the accurate and efficient calculation of the optical properties of...
Influence of the various types of disorder on propagation of light in one-dimensional periodic struc...
We study the influence of positional disorder on the optical properties of metallic photonic crysta...
Propagation in perturbed one-dimensional phononic or photonic crystals, with both composit...
We present a systematic numerical approach to compute the eigenmodes and the related eigenfrequencie...
This work concentrates on numerical simulations of Photonic Crystal structures using basis-expansion...
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
The photon localization in disordered two-dimensional photonic crystal is studied theoretically. It ...
Photons propagate in photonic crystals in the same way as electrons propagate in solids. The periodi...
Disordered two-dimensional photonic crystals with a complete photonic band-gap have been investigate...
We studied the modes of the highest-quality factor Qm in disordered photonic crystals. by varying th...
This book introduces recent advances in the deterministic design of photonic structures, which overc...
This work is concerned with the study of photonic crystals and other topical photonic microstructure...